Ted Turlings

Domaines de recherche

Over the last two decades we have revealed that plants under attack by insect herbivores initiate a systemic release of specific volatiles. In the case of caterpillars feeding on leaves, the plant's response results in an odour that serves as a signal used by parasitic wasps to locate their hosts, whereas several herbivorous insects are repelled by the odour. Studies into the mechanisms of the plant response show that it is greatly enhanced by factors in the oral secretions of herbivorous insects. In collaboration with colleagues at the USDA in Gainesville, Florida, we isolated and identified a powerful elicitor from the regurgitant of Spodoptera larvae, which was named volicitin.

In more recent work on root signals we show that root feeding by larvae of the important maize pest Diabrotica virgifera virgifera results in the release of E-(ß)-caryophyllene. This sesquiterpene was identified with the help of our collaborators at the Max Planck Institute for Chemical Ecology and was found to be highly attractive to entomopatogenic nematodes. Many American maize lines do not release this signal and this is reflected in poor attraction of and infection by the nematodes in field experiments conducted with the help of scientist at CABI Bioscience, Switzerland.

Now that we have obtained considerable insight into the mechanisms of these above- and belowground multi-trophic level interactions, this knowledge is being applied to better understand the evolutionary, ecological and applicable aspects of chemical signalling between plants and insects. Thus, it is envisioned that the studies will contribute to evolutionary theory on multitrophic level interactions, but also to novel strategies for pest management.



Complete publication list

Publication list for the last five years


Xu H, Desurmont G, Degen T, Zhou G, Laplanche D, Henryk L, Turlings TCJ 2017. Combined use of herbivore-induced plant volatiles and sex pheromones for mate location in braconid parasitoids. Plant, Cell & Environment 40: 330-339.

Röder G, Mota M, Turlings TCJ 2017. Host plant location by chemotaxis in an aquatic beetle. Aquatic Sciences 79: 309-318.

Jaffuel G, Blanco-Pérez R, Büchi L, Mäder P, Fließbach A, Charles R, Degen T, Turlings TCJ, Campos-Herrera R 2017. Effects of cover crops on the overwintering success of entomopathogenic nematodes and their antagonists. Applied Soil Ecology 114: 62-73.

Gaillard MDP, Glauser G, Robert CAM, Turlings TCJ 2017. Fine-tuning the ‘plant domestication-reduced defense’ hypothesis: specialist vs generalist herbivores. New Phytologist: n/a-n/a.

Desurmont GA, Köhler A, Maag D, Laplanche D, Xu H, Baumann J, Demairé C, Devenoges D, Glavan M, Mann L, Turlings TCJ 2017. The spitting image of plant defenses: Effects of plant secondary chemistry on the efficacy of caterpillar regurgitant as an anti-predator defense. Ecology and Evolution 7: 6304-6313.

Desurmont GA, Guiguet A, Turlings TCJ 2017. Invasive insect herbivores as disrupters of chemically-mediated tritrophic interactions: effects of herbivore density and parasitoid learning. Biological Invasions.

Chiriboga M X, Campos-Herrera R, Jaffuel G, Röder G, Turlings TCJ 2017. Diffusion of the maize root signal (E)-β-caryophyllene in soils of different textures and the effects on the migration of the entomopathogenic nematode Heterorhabditis megidis. Rhizosphere 3: 53-59.

Carrasco D, Desurmont GA, Laplanche D, Proffit M, Gols R, Becher PG, Larsson MC, Turlings TCJ, Anderson P 2017. With or without you: Effects of the concurrent range expansion of an herbivore and its natural enemy on native species interactions. Global Change Biology: n/a-n/a.

Canestrari D, Bolopo D, Turlings TCJ, Röder G, Marcos JM, Baglione V 2017. Formal comment to Soler et al.: Great spotted cuckoo nestlings have no antipredatory effect on magpie or carrion crow host nests in southern Spain. Plos One 12: e0184446.

Brütsch T, Jaffuel G, Vallat A, Turlings TCJ, Chapuisat M 2017. Wood ants produce a potent antimicrobial agent by applying formic acid on tree-collected resin. Ecology and Evolution 7: 2249-2254.


Veyrat N, Robert CAM, Turlings TCJ, Erb M 2016. Herbivore intoxication as a potential primary function of an inducible volatile plant signal. Journal of Ecology 104: 591-600.

Rasmann S, Turlings TCJ 2016. Root signals that mediate mutualistic interactions in the rhizosphere. Current Opinion in Plant Biology 32: 62-68.

Maag D, Köhler A, Robert CAM, Frey M, Wolfender J-L, Turlings TCJ, Glauser G, Erb M 2016. Highly localized and persistent induction of Bx1-dependent herbivore resistance factors in maize. The Plant Journal 88: 976-991.

Liu X-F, Chen H-H, Li J-K, Zhang R, Turlings TCJ, Chen L 2016. Volatiles released by Chinese liquorice roots mediate host location behaviour by neonate Porphyrophora sophorae (Hemiptera: Margarodidae). Pest Management Science 72: 1959-1964.

Jaffuel G, Mäder P, Blanco-Perez R, Chiriboga X, Fliessbach A, Turlings TCJ, Campos-Herrera R 2016. Prevalence and activity of entomopathogenic nematodes and their antagonists in soils that are subject to different agricultural practices. Agriculture, Ecosystems & Environment 230: 329-340.

16.   Desurmont GA, Zemanova MA, Turlings TC 2016. The gastropod menace: Slugs on Brassica plants affect caterpillar survival through consumption and interference with parasitoid attraction. Journal of Chemical Ecology 42: 183-192.

Desurmont GA, Xu H, Turlings TCJ 2016. Powdery mildew suppresses herbivore-induced plant volatiles and interferes with parasitoid attraction in Brassica rapa. Plant, Cell & Environment 39: 1920-1927.

de Lange ES, Farnier K, Gaudillat B, Turlings TCJ 2016. Comparing the attraction of two parasitoids to herbivore-induced volatiles of maize and its wild ancestors, the teosintes. Chemoecology 26: 33-44.

Ardanuy A, Albajes R, Turlings TCJ 2016. Innate and Learned Prey-Searching Behavior in a Generalist Predator. Journal of Chemical Ecology 42: 497-507.


Sobhy IS, Erb M, Turlings TCJ 2015. Plant strengtheners enhance parasitoid attraction to herbivore-damaged cotton via qualitative and quantitative changes in induced volatiles. Pest Management Science 71: 686-693.

Pineda A, Soler R, Pozo MJ, Rasmann S, Turlings TCJ 2015. Editorial: Above-belowground interactions involving plants, microbes and insects. Frontiers in Plant Science 6: 318.

Maag D, Erb M, Bernal JS, Wolfender J-L, Turlings TCJ, Glauser G 2015. Maize Domestication and Anti-Herbivore Defences: Leaf-Specific Dynamics during Early Ontogeny of Maize and Its Wild Ancestors. Plos One 10.

Köhler A, Maag D, Veyrat N, Glauser G, Wolfender JL, Turlings TCJ, Erb M 2015. Within-plant distribution of 1,4-benzoxazin-3-ones contributes to herbivore niche differentiation in maize. Plant Cell and Environment 38: 1081-1093.

Klauser D, Desurmont GA, Glauser G, Vallat A, Flury P, Boller T, Turlings TCJ, Bartels S 2015. The Arabidopsis Pep-PEPR system is induced by herbivore feeding and contributes to JA-mediated plant defence against herbivory. Journal of Experimental Botany 66: 5327-5336.

Kim J, Jaffuel G, Turlings TCJ 2015. Enhanced alginate capsule properties as a formulation of entomopathogenic nematodes. Biocontrol 60: 527-535.

Jaffuel G, Hiltpold I, Turlings TCJ 2015. Highly potent extracts from Pea (Pisum sativum) and Maize (Zea mays) roots can be used to induce quiescence in entomopathogenic nematodes. Journal of Chemical Ecology 41: 793-800.

Hiltpold I, Jaffuel G, Turlings TCJ 2015. The dual effects of root-cap exudates on nematodes: from quiescence in plant-parasitic nematodes to frenzy in entomopathogenic nematodes. Journal of Experimental Botany 66: 603-611.

Erb M, Veyrat N, Robert CAM, Xu H, Frey M, Ton J, Turlings TCJ 2015. Indole is an essential herbivore-induced volatile priming signal in maize. Nature Communications 6.

Erb M, Robert CAM, Marti G, Lu J, Doyen GR, Villard N, Barrière Y, French BW, Wolfender J-L, Turlings TCJ, Gershenzon J 2015. A physiological and behavioral mechanism for leaf-herbivore induced systemic root resistance. Plant Physiology 169: 2884-2894.

Desurmont GA, Laplanche D, Schiestl FP, Turlings TCJ 2015. Floral volatiles interfere with plant attraction of parasitoids: ontogeny-dependent infochemical dynamics in Brassica rapa. BMC Ecology 15: 1-11.

Chabaane Y, Laplanche D, Turlings TCJ, Desurmont GA 2015. Impact of exotic insect herbivores on native tritrophic interactions: a case study of the African cotton leafworm, Spodoptera littoralis and insects associated with the field mustard Brassica rapa. Journal of Ecology 103: 109-117.

Campos-Herrera R, Puza V, Jaffuel G, Blanco-Perez R, Cepulyte-Rakauskiene R, Turlings TCJ 2015. Unraveling the intraguild competition between Oscheius spp. nematodes and entomopathogenic nematodes: Implications for their natural distribution in Swiss agricultural soils. Journal of Invertebrate Pathology 132: 216-227.

Campos-Herrera R, Jaffuel G, Chiriboga X, Blanco-Perez R, Fesselet M, Puza V, Mascher F, Turlings TCJ 2015. Traditional and molecular detection methods reveal intense interguild competition and other multitrophic interactions associated with native entomopathogenic nematodes in Swiss tillage soils. Plant and Soil 389: 237-255.

Campos-Herrera R, Jaffuel G, Chiriboga X, Blanco-Perez R, Fesselet AM, Hug S, Meuli RG, Mäder P, Mascher F, Turlings TCJ 2015. Understanding the assemblage of entomopathogenic nematodes soil food web in natural and agricultural areas: new insights from a Swiss ecological research network. Journal of Nematology 47: 228-228.

Benrey B, Degen T, Turlings TCJ 2015. Special Issue: 15th International Symposium on Insect-Plant Relationships Preface. Entomologia Experimentalis Et Applicata 157: 1-1.

Amorós-Jiménez R, Robert CM, Ángeles Marcos-García M, Fereres A, Turlings TCJ 2015. A Differential Role of Volatiles from Conspecific and Heterospecific Competitors in the Selection of Oviposition Sites by the Aphidophagous Hoverfly Sphaerophoria rueppellii. Journal of Chemical Ecology 41: 493-500.


Xu H, Veyrat N, Degen T, Turlings TCJ 2014. Exceptional use of sex pheromones by parasitoids of the genus Cotesia: males are strongly attracted to virgin females, but are no longer attracted to or even repelled by mated females. Insects 5: 499-512.

Turlings TJ 2014. From Applied Entomology to Evolutionary Ecology and Back. Journal of Chemical Ecology 40: 224-224.

Sobhy IS, Erb M, Lou YG, Turlings TCJ 2014. The prospect of applying chemical elicitors and plant strengtheners to enhance the biological control of crop pests. Philosophical Transactions of the Royal Society B-Biological Sciences 369: 20120283.

Röder G, Canestrari D, Bolopo D, Marcos JM, Villard N, Baglione V, Turlings TCJ 2014. Chicks of the great spotted cuckoo may turn brood parasitism into mutualism by producing a foul-smelling secretion that repels predators. Journal of Chemical Ecology 40: 320-324.

Robert CAM, Ferrieri RA, Schirmer S, Babst BA, Schueller MJ, Machado RAR, Arce CCM, Hibbard BE, Gershenzon J, Turlings TCJ, Erb M 2014. Induced carbon reallocation and compensatory growth as root herbivore tolerance mechanisms. Plant, Cell & Environment 37: 2613-2622.

Maag D, Dalvit C, Thevenet D, Köhler A, Wouters FC, Vassão DG, Gershenzon J, Wolfender J-L, Turlings TCJ, Erb M, Glauser G 2014. 3-β-D-Glucopyranosyl-6-methoxy-2-benzoxazolinone (MBOA-N-Glc) is an insect detoxification product of maize 1,4-benzoxazin-3-ones. Phytochemistry 102: 97-105.

Loreto F, Dicke M, Schnitzler JP, Turlings TCJ 2014. Plant volatiles and the environment. Plant Cell and Environment 37: 1905-1908.

Desurmont GA, Harvey J, van Dam NM, Cristescu SM, Schiestl FP, Cozzolino S, Anderson P, Larsson MC, Kindlmann P, Danner H, Turlings TCJ 2014. Alien interference: disruption of infochemical networks by invasive insect herbivores. Plant Cell and Environment 37: 1854-1865.

de Lange ES, Balmer D, Mauch-Mani B, Turlings TCJ 2014. Insect and pathogen attack and resistance in maize and its wild ancestors, the teosintes. New Phytologist 204: 329-341.

D'Alessandro M, Erb M, Ton J, Brandenburg A, Karlen D, Zopfi J, Turlings TCJ 2014. Volatiles produced by soil-borne endophytic bacteria increase plant pathogen resistance and affect tritrophic interactions. Plant, Cell & Environment 37: 813-826.

Canestrari D, Bolopo D, Turlings TCJ, Röder G, Marcos JM, Baglione V 2014. From Parasitism to Mutualism: Unexpected Interactions Between a Cuckoo and Its Host. Science 343: 1350-1352.


Zhang P-J, Xu C-X, Zhang J-M, Lu Y-B, Wei J-N, Liu Y-Q, David A, Boland W, Turlings TCJ 2013. Phloem-feeding whiteflies can fool their host plants, but not their parasitoids. Functional Ecology 27: 1304-1312.

von Mérey GE, Veyrat N, D'Alessandro M, Turlings T 2013. Herbivore-induced maize leaf volatiles affect attraction and feeding behaviour of Spodoptera littoralis caterpillars. Frontiers in Plant Science 4.

Robert CAM, Frank DL, Leach KA, Turlings TCJ, Hibbard BE, Erb M 2013. Direct and indirect plant defenses are not suppressed by endosymbionts of a specialist root herbivore. Journal of Chemical Ecology 39: 507-515.

Robert CAM, Erb M, Hiltpold I, Hibbard BE, Gaillard MDP, Bilat J, Degenhardt J, Cambet-Petit-Jean X, Turlings TCJ, Zwahlen C 2013. Genetically engineered maize plants reveal distinct costs and benefits of constitutive volatile emissions in the field. Plant Biotechnology Journal 11: 628-639.

Marti G, Erb M, Boccard J, Glauser G, Doyen GR, Villard N, Robert CAM, Turlings TCJ, Rudaz S, Wolfender JL 2013. Metabolomics reveals herbivore-induced metabolites of resistance and susceptibility in maize leaves and roots. Plant, Cell and Environment 36: 621-639.

Maag D, Köhler A, Glauser G, Erb M, Wolfender J-L, Turlings T 2013. Differences in 1,4-benzoxazin-3-one profile and induction during growth of young maize affect foraging patterns of leaf herbivores. IOBC-WPRS Bulletin 89: 249-252.

Johnson SN, Hiltpold I, Turlings TCJ 2013. Behaviour and Physiology of Root Herbivores (Preface). In: Johnson, SN, Hiltpold, I, Turlings, TCJ (eds.) Advances in Insect Physiology. Academic Press.

Huffaker A, Pearce G, Veyrat N, Erb M, Turlings TCJ, Sartor R, Shen Z, Briggs SP, Vaughan MM, Alborn HT, Teal PEA, Schmelz EA 2013. Plant elicitor peptides are conserved signals regulating direct and indirect antiherbivore defense. Proceedings of the National Academy of Sciences of the United States of America 110: 5707-5712.

Hiltpold I, Turlings TCJ 2013. Manipulation of below-ground scents for the benefit of agriculture. In: Wurms, KV, Popay, AJ, Bell, NL, Jaspers, MV (eds.) Utilising Plant Defence for Pest Control. The New Zealand Plant Protection Society (Incorporated).

Glauser G, Veyrat N, Rochat B, Wolfender JL, Turlings TCJ 2013. Ultra-high pressure liquid chromatography-mass spectrometry for plant metabolomics: A systematic comparison of high-resolution quadrupole-time-of-flight and single stage Orbitrap mass spectrometers. Journal of Chromatography A 1292: 151-159.

Christensen SA, Nemchenko A, Borrego E, Murray I, Sobhy IS, Bosak L, DeBlasio S, Erb M, Robert CAM, Vaughn KA, Herrfurth C, Tumlinson J, Feussner I, Jackson D, Turlings TCJ, Engelberth J, Nansen C, Meeley R, Kolomiets MV 2013. The maize lipoxygenase, ZmLOX10, mediates green leaf volatile, jasmonate and herbivore-induced plant volatile production for defense against insect attack. Plant Journal 74: 59-73.



Ted Turlings

Professeur ordinaire


Vice-directeur de l'institut de biologie


Directeur du centre de compétence en écologie chimique (C3E)


Co-directeur du Masters of Advanced Studies in Integrated Crop Managment (MAS-ICM)



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